Well, unless you tell us the exact height of a cup, how could we know that.
No. The height would be one meter. Remember: 1 kilometer (km) = 1,000 meters (m) A meter is about 3 feet, so a five- foot person would be about 16 meters.
About 3.2 billion cans. A 12-oz aluminum can may be designated as 12 cm tall -- the design of the cans allows them to "nest" which reduces the effective height when they are stacked. The average distance to the Moon is 384,400 kilometers. Dividing 384 million meters by 0.12 meter per can yields a figure of 3,203,333,333 cans.
A million dollar bills stacked would be approximately 4,300 feet tall. This is based on the thickness of a single bill, which is about 0.0043 inches. Therefore, if you stack 1 million bills, the height would exceed that of most tall buildings, making it an impressive and visually striking amount.
Metre.
Depending how small it is, you could use the meter, the millimeter, the micron (= micrometer), the nanometer, etc. The meter is approximately the height of a child; the millimeter is 1/1000 of that, the micron is a millionth of a meter, the nanometer is a billionth of a meter.
1569 metres.
meter
You would use meter's to measure an oak tree's height.
I would use Meters
To determine how many quarters would need to be stacked to reach 575 feet, we first need to know the thickness of a quarter, which is approximately 1.95 millimeters or about 0.00064 feet. Dividing 575 feet by the thickness of a quarter gives approximately 898,437 quarters. Therefore, around 898,437 quarters would need to be stacked to equal the height of the Washington Monument.
A meter is a measurement of length - one dimension. A cubic meter is a measure of volume - three dimensions. A cubic meter would be a space one meter wide x one meter deep x one meter high. In effect a cube.
Meter stick.
It would take approximately 1.3 trillion pennies stacked on top of each other to reach the moon, assuming the average height of a stacked penny is 0.75 inches.
meter
No. The height would be one meter. Remember: 1 kilometer (km) = 1,000 meters (m) A meter is about 3 feet, so a five- foot person would be about 16 meters.
About 3.2 billion cans. A 12-oz aluminum can may be designated as 12 cm tall -- the design of the cans allows them to "nest" which reduces the effective height when they are stacked. The average distance to the Moon is 384,400 kilometers. Dividing 384 million meters by 0.12 meter per can yields a figure of 3,203,333,333 cans.
Assuming a standard sheet of paper is 0.1mm thick, the height of a million sheets of paper stacked on top of each other would be 100 meters (328 feet).